Illuminating the Devolution of Perovskite Passivation Layers

钝化 钙钛矿(结构) 权力下放(生物学) 材料科学 工程物理 业务 环境科学 地质学 图层(电子) 工程类 化学工程 纳米技术 古生物学 两足动物
作者
Marcin Giza,Aleksey Kozikov,Paula L. Lalaguna,Jake D. Hutchinson,Vaibhav Verma,Benjamin Vella,Rahul Kumar,Nathan Hill,Dumitru Sirbu,Elisabetta Arca,N. Healy,Rebecca L. Milot,Malcolm Kadodwala,Pablo Docampo
出处
期刊:Small structures [Wiley]
标识
DOI:10.1002/sstr.202400234
摘要

Surface treatment of perovskite materials with their layered counterparts has become an ubiquitous strategy for maximizing device performance. While layered materials confer great benefits to the longevity and long‐term efficiency of the resulting device stack via passivation of defects and surface traps, numerous reports have previously demonstrated that these materials evolve under exposure to light and humidity, suggesting that they are not fully stable. Therefore, it is crucial to study the behavior of these materials in isolation and in conditions mimicking a device stack. Here, it is shown that perovskite capping layers templated by a range of cations on top of methylammonium lead iodide devolve in conditions commonly found during perovskite fabrication, such as exposure to light, solvent, and moisture. Photophysical, structural, and morphological studies are used to show that the degradation of these layered perovskites occurs via a self‐limiting, pinhole‐mediated mechanism. This results in the loss of whole perovskite sheets, from a few monolayers to tens of nanometers of material, until the system stabilizes again as demonstrated for exfoliated flakes of PEA 2 PbI 4 . This means that initially targeted structures may have devolved, with clear optimization implications for device fabrication.
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